Pre-metered, unsupported multilayer microporous membrane

a microporous membrane, unsupported technology, applied in the direction of membranes, filtration separation, separation processes, etc., can solve the problems of unsatisfactory adulteration of polymer solutions in this manner, unreinforced or unsupported nylon being used, and not revealing, suggesting or teaching independent control of the properties of each zone prior ar

Inactive Publication Date: 2004-05-18
3M INNOVATIVE PROPERTIES CO
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Asymmetric membrane prior art does not disclose, suggest or teach independent control of the properties of each zone (such as thickness or pore size) nor the formation of distinct layers or two distinct polymer dopes.
In some applications, especially pleated cartridge filters, Nylon is an intrinsically weak material which requires the use of a scrim to function in particular applications effectively, but unreinforced or unsupported nylon is used in other applications.
Adulteration of the polymer solution in this manner is less desirable than a technique which is not sensitive to viscosity differences between the layers.
This patent does not disclose a method to produce a multilayer membrane where neither layer has previously been subjected to phase inversion.
Having as its salient point post-metering coating apparatus which apparently results in high interfacial shear turbulence which results in an asymmetric transition zone, having a different pore size from either of the two adjacent layers, in the interface zone.
It is believed that the Kools structure, as disclosed, will result in the undesirable FFBP as discussed below.
These methods suffer from the limitation that they create an asymmetric region at the interface presently believed due to the shear action of post-metered coating apparatus.
However, wet lamination is prone to delamination, which can be a particular concern if the membrane is back-flushed.

Method used

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  • Pre-metered, unsupported multilayer microporous membrane
  • Pre-metered, unsupported multilayer microporous membrane
  • Pre-metered, unsupported multilayer microporous membrane

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Embodiment Construction

The microporous membrane and the methods for producing same as disclosed herein can also be characterized by a FFBP curve, as illustrated in FIGS. 16a-16d. As the result of further consideration of the experiments included in the parent application, we have discovered that certain multilayer membrane, although they may appear multilayer with SEM analysis, will exhibit a degree of asymmetry if produced by prior art methods described below. However, as will be apparent from the present disclosure, products and methods that produce the disclosed multilayer membrane eliminates this asymmetry.

The following define specific terms, as they are understood to be used in the present disclosure.

By the term "polymer dope(s)" or "dope(s)," we mean a polymer dissolved in a solvent, or in a miscible solvent / non-solvent combination such that polymer dope(s) will form a pore structure when subjected to a phase inversion process.

By the term "phase inversion process," we mean a process of exposing a po...

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Abstract

An at least two layer, unsupported, continuous microporous membrane is disclosed. The at least two layer, unsupported, continuous microporous membrane may include at least two different membrane pore size layers or the pore sizes may have about the same pore size. Apparatus and processes for fabricating at least a two layer unsupported, continuous, microporous membrane are also disclosed. One representative process disclosed for forming a continuous, unsupported, multilayer phase inversion microporous membrane having at least two layers comprises of the acts of: operatively positioning at least one dope applying apparatus, having at least two polymer dope feed slots, relative to a continuous moving coating surface; applying polymer dopes from each of the dope feed slots onto the continuously moving coating surface so as to create a multiple layer polymer dope coating on the coating surface; subjecting the multiple dope layer to contact with a phase inversion producing environment so as to form a wet multilayer phase inversion microporous membrane; and then washing and drying the membrane. Other representative apparatuses and processes are also disclosed.

Description

BACKGROUND OF THE DISCLOSUREThe present disclosure relates to continuous, unsupported, microporous membranes having two or more distinct, but controlled pore sizes and to processes of making and using same, more particularly to unsupported microporous membranes made from a first dope and at least one additional dope being applied directly to one another prior to the at least two dopes being quenched and to apparatus for manufacturing and processes for making such membrane.Microporous phase inversion membranes are well known in the art. Microporous phase inversion membranes are porous solids which contain microporous interconnecting passages that extend from one surface to the other. These passages provide tortuous tunnels or paths through which the liquid which is being filtered must pass. The particles contained in the liquid passing through a microporous phase inversion membrane become trapped on or in the membrane structure effecting filtration. The particles in the liquid that a...

Claims

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Application Information

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Patent Type & Authority Patents(United States)
IPC IPC(8): B01D69/00B01D71/00B01D71/34B01D67/00B01D69/02B01D69/12B01D71/56B01D69/06B01D71/68B29C41/00B29C41/32B32B5/32B32B5/22B05C5/02B05B9/04B05B9/06B05D1/26B05D3/02
CPCB01D67/0018B01D69/02B01D69/06B01D69/12B01D71/34B01D71/56B01D71/68B29C41/32B32B5/32B05B9/06B05C5/0254B01D2323/18B01D2325/022Y10T428/249978Y10T428/24998Y10T428/249981
Inventor SALE, RICHARDOSTREICHER, EUGENE
Owner 3M INNOVATIVE PROPERTIES CO
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